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AI Driven Mechatronics and Robotics

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The ‘AI Driven Mechatronics and Robotics’ Master's degree programme prepares you optimally for a future-proof career in the fields of artificial intelligence and machine learning. The interdisciplinary programme is offered by the Faculty of Mechanical Engineering in cooperation with the Faculty of Electrical Engineering and Computer Science and the Faculty of Civil Engineering and Geodetic Science. The programme focuses on the interaction of mechanics, electronics and computer science for the purpose of developing technical systems in which sensory, information-processing, actuator and mechanical functions are integrated. In addition to the increased internationalisation of the courses on offer, the promotion of global talent and future specialists is being pursued.

An overview

Type of degree programme Consecutive Master's degree programme | 120 ECTS
Standard period of study 4 semesters
Start Winter semester
Language requirements English C1
Internship 12-week industrial or specialised internship
Admission Admission-free, subject-related Bachelor's degree is required
Degree Master of Science
Costs Low semester fee with public transport ticket, no tuition fees

Module plans and catalogues

Curriculum

Module catalogues, tutorials and labs

Tools for planning and structuring the degree programme

Qualification goals

  • Tasks and requirements for the degree programme

    The ‘AI Driven Mechatronics and Robotics’ Master's programme focuses on the interdisciplinary integration of mechanics, electronics and computer science to develop complex technical systems, so that the professional requirement is to fully exploit and effectively combine the specific strengths of each engineering discipline to design advanced mechatronic systems.

  • Essential qualification goals
    • In-depth understanding of complex mechatronic systems and their functions at the interface of mechanics, electrical engineering and computer science
    • Ability to scientifically analyse and describe the interaction of mechanical, electrical and information technology components in mechatronic systems
    • Competence in the design, modelling, construction, implementation and testing of mechatronic systems
    • Ability to develop innovative mechatronic systems by optimising the combination of disciplinary resources for a wide range of applications
    • Ability to work independently and scientifically, including planning and conducting research and critically analysing results
    • Ability to integrate methods from mechanical engineering, electrical engineering and computer science to solve technical problems
  • Graduates are able to
    • Develop and optimise mechatronic systems on a research basis
    • Test and implement complex mechatronic systems according to scientific standards and under consideration of given conditions
    • Analyse fields of application to develop suitable solutions
    • Systematically work on complex problems with creative and networked thinking
    • Effectively moderate interdisciplinary teams and manage specialised projects as well as clearly communicate technical issues and work results

PhD

Documents, procedure and organisational matters

Contact

Study counselling
Faculty of Mechanical Engineering
Study counselling
Faculty of Mechanical Engineering